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|
//===--- DebugInfo.cpp - Debug Information Helper Classes -----------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the helper classes used to build and interpret debug
// information in LLVM IR form.
//
//===----------------------------------------------------------------------===//
#include "llvm/IR/DebugInfo.h"
#include "LLVMContextImpl.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Analysis/ValueTracking.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/DIBuilder.h"
#include "llvm/IR/DerivedTypes.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/IntrinsicInst.h"
#include "llvm/IR/Intrinsics.h"
#include "llvm/IR/Module.h"
#include "llvm/IR/ValueHandle.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/Dwarf.h"
#include "llvm/Support/raw_ostream.h"
using namespace llvm;
using namespace llvm::dwarf;
//===----------------------------------------------------------------------===//
// DIDescriptor
//===----------------------------------------------------------------------===//
unsigned DIDescriptor::getFlag(StringRef Flag) {
return StringSwitch<unsigned>(Flag)
#define HANDLE_DI_FLAG(ID, NAME) .Case("DIFlag" #NAME, Flag##NAME)
#include "llvm/IR/DebugInfoFlags.def"
.Default(0);
}
const char *DIDescriptor::getFlagString(unsigned Flag) {
switch (Flag) {
default:
return "";
#define HANDLE_DI_FLAG(ID, NAME) \
case Flag##NAME: \
return "DIFlag" #NAME;
#include "llvm/IR/DebugInfoFlags.def"
}
}
unsigned DIDescriptor::splitFlags(unsigned Flags,
SmallVectorImpl<unsigned> &SplitFlags) {
// Accessibility flags need to be specially handled, since they're packed
// together.
if (unsigned A = Flags & FlagAccessibility) {
if (A == FlagPrivate)
SplitFlags.push_back(FlagPrivate);
else if (A == FlagProtected)
SplitFlags.push_back(FlagProtected);
else
SplitFlags.push_back(FlagPublic);
Flags &= ~A;
}
#define HANDLE_DI_FLAG(ID, NAME) \
if (unsigned Bit = Flags & ID) { \
SplitFlags.push_back(Bit); \
Flags &= ~Bit; \
}
#include "llvm/IR/DebugInfoFlags.def"
return Flags;
}
bool DIDescriptor::Verify() const {
return DbgNode &&
(DIDerivedType(DbgNode).Verify() ||
DICompositeType(DbgNode).Verify() || DIBasicType(DbgNode).Verify() ||
DIVariable(DbgNode).Verify() || DISubprogram(DbgNode).Verify() ||
DIGlobalVariable(DbgNode).Verify() || DIFile(DbgNode).Verify() ||
DICompileUnit(DbgNode).Verify() || DINameSpace(DbgNode).Verify() ||
DILexicalBlock(DbgNode).Verify() ||
DILexicalBlockFile(DbgNode).Verify() ||
DISubrange(DbgNode).Verify() || DIEnumerator(DbgNode).Verify() ||
DIObjCProperty(DbgNode).Verify() ||
DITemplateTypeParameter(DbgNode).Verify() ||
DITemplateValueParameter(DbgNode).Verify() ||
DIImportedEntity(DbgNode).Verify());
}
static Metadata *getField(const MDNode *DbgNode, unsigned Elt) {
if (!DbgNode || Elt >= DbgNode->getNumOperands())
return nullptr;
return DbgNode->getOperand(Elt);
}
static MDNode *getNodeField(const MDNode *DbgNode, unsigned Elt) {
return dyn_cast_or_null<MDNode>(getField(DbgNode, Elt));
}
static StringRef getStringField(const MDNode *DbgNode, unsigned Elt) {
if (MDString *MDS = dyn_cast_or_null<MDString>(getField(DbgNode, Elt)))
return MDS->getString();
return StringRef();
}
StringRef DIDescriptor::getStringField(unsigned Elt) const {
return ::getStringField(DbgNode, Elt);
}
uint64_t DIDescriptor::getUInt64Field(unsigned Elt) const {
if (auto *C = getConstantField(Elt))
if (ConstantInt *CI = dyn_cast<ConstantInt>(C))
return CI->getZExtValue();
return 0;
}
int64_t DIDescriptor::getInt64Field(unsigned Elt) const {
if (auto *C = getConstantField(Elt))
if (ConstantInt *CI = dyn_cast<ConstantInt>(C))
return CI->getZExtValue();
return 0;
}
DIDescriptor DIDescriptor::getDescriptorField(unsigned Elt) const {
MDNode *Field = getNodeField(DbgNode, Elt);
return DIDescriptor(Field);
}
GlobalVariable *DIDescriptor::getGlobalVariableField(unsigned Elt) const {
return dyn_cast_or_null<GlobalVariable>(getConstantField(Elt));
}
Constant *DIDescriptor::getConstantField(unsigned Elt) const {
if (!DbgNode)
return nullptr;
if (Elt < DbgNode->getNumOperands())
if (auto *C =
dyn_cast_or_null<ConstantAsMetadata>(DbgNode->getOperand(Elt)))
return C->getValue();
return nullptr;
}
Function *DIDescriptor::getFunctionField(unsigned Elt) const {
return dyn_cast_or_null<Function>(getConstantField(Elt));
}
/// \brief Return the size reported by the variable's type.
unsigned DIVariable::getSizeInBits(const DITypeIdentifierMap &Map) {
DIType Ty = getType().resolve(Map);
// Follow derived types until we reach a type that
// reports back a size.
while (Ty.isDerivedType() && !Ty.getSizeInBits()) {
DIDerivedType DT(&*Ty);
Ty = DT.getTypeDerivedFrom().resolve(Map);
}
assert(Ty.getSizeInBits() && "type with size 0");
return Ty.getSizeInBits();
}
bool DIExpression::isBitPiece() const {
unsigned N = getNumElements();
return N >=3 && getElement(N-3) == dwarf::DW_OP_bit_piece;
}
uint64_t DIExpression::getBitPieceOffset() const {
assert(isBitPiece() && "not a piece");
return getElement(getNumElements()-2);
}
uint64_t DIExpression::getBitPieceSize() const {
assert(isBitPiece() && "not a piece");
return getElement(getNumElements()-1);
}
DIExpression::iterator DIExpression::Operand::getNext() const {
iterator it(I);
return ++it;
}
//===----------------------------------------------------------------------===//
// Simple Descriptor Constructors and other Methods
//===----------------------------------------------------------------------===//
void DIDescriptor::replaceAllUsesWith(LLVMContext &, DIDescriptor D) {
assert(DbgNode && "Trying to replace an unverified type!");
assert(DbgNode->isTemporary() && "Expected temporary node");
TempMDNode Temp(get());
// Since we use a TrackingVH for the node, its easy for clients to manufacture
// legitimate situations where they want to replaceAllUsesWith() on something
// which, due to uniquing, has merged with the source. We shield clients from
// this detail by allowing a value to be replaced with replaceAllUsesWith()
// itself.
if (Temp.get() == D.get()) {
DbgNode = MDNode::replaceWithUniqued(std::move(Temp));
return;
}
Temp->replaceAllUsesWith(D.get());
DbgNode = D.get();
}
void DIDescriptor::replaceAllUsesWith(MDNode *D) {
assert(DbgNode && "Trying to replace an unverified type!");
assert(DbgNode != D && "This replacement should always happen");
assert(DbgNode->isTemporary() && "Expected temporary node");
TempMDNode Node(get());
Node->replaceAllUsesWith(D);
}
bool DICompileUnit::Verify() const {
if (!isCompileUnit())
return false;
// Don't bother verifying the compilation directory or producer string
// as those could be empty.
return !getFilename().empty();
}
bool DIObjCProperty::Verify() const { return isObjCProperty(); }
/// \brief Check if a value can be a reference to a type.
static bool isTypeRef(const Metadata *MD) {
if (!MD)
return true;
if (auto *S = dyn_cast<MDString>(MD))
return !S->getString().empty();
return isa<MDType>(MD);
}
/// \brief Check if a value can be a ScopeRef.
static bool isScopeRef(const Metadata *MD) {
if (!MD)
return true;
if (auto *S = dyn_cast<MDString>(MD))
return !S->getString().empty();
return isa<MDScope>(MD);
}
#ifndef NDEBUG
/// \brief Check if a value can be a DescriptorRef.
static bool isDescriptorRef(const Metadata *MD) {
if (!MD)
return true;
if (auto *S = dyn_cast<MDString>(MD))
return !S->getString().empty();
return isa<MDNode>(MD);
}
#endif
bool DIType::Verify() const {
auto *N = dyn_cast_or_null<MDType>(DbgNode);
if (!N)
return false;
if (!isScopeRef(N->getScope()))
return false;
// DIType is abstract, it should be a BasicType, a DerivedType or
// a CompositeType.
if (isBasicType())
return DIBasicType(DbgNode).Verify();
// FIXME: Sink this into the various subclass verifies.
if (getFilename().empty()) {
// Check whether the filename is allowed to be empty.
uint16_t Tag = getTag();
if (Tag != dwarf::DW_TAG_const_type && Tag != dwarf::DW_TAG_volatile_type &&
Tag != dwarf::DW_TAG_pointer_type &&
Tag != dwarf::DW_TAG_ptr_to_member_type &&
Tag != dwarf::DW_TAG_reference_type &&
Tag != dwarf::DW_TAG_rvalue_reference_type &&
Tag != dwarf::DW_TAG_restrict_type && Tag != dwarf::DW_TAG_array_type &&
Tag != dwarf::DW_TAG_enumeration_type &&
Tag != dwarf::DW_TAG_subroutine_type &&
Tag != dwarf::DW_TAG_inheritance && Tag != dwarf::DW_TAG_friend &&
Tag != dwarf::DW_TAG_structure_type && Tag != dwarf::DW_TAG_member &&
Tag != dwarf::DW_TAG_typedef)
return false;
}
if (isCompositeType())
return DICompositeType(DbgNode).Verify();
if (isDerivedType())
return DIDerivedType(DbgNode).Verify();
return false;
}
bool DIBasicType::Verify() const {
return dyn_cast_or_null<MDBasicType>(DbgNode);
}
bool DIDerivedType::Verify() const {
auto *N = dyn_cast_or_null<MDDerivedTypeBase>(DbgNode);
if (!N)
return false;
if (getTag() == dwarf::DW_TAG_ptr_to_member_type) {
auto *D = dyn_cast<MDDerivedType>(N);
if (!D)
return false;
if (!isTypeRef(D->getExtraData()))
return false;
}
return isTypeRef(N->getBaseType());
}
bool DICompositeType::Verify() const {
auto *N = dyn_cast_or_null<MDCompositeTypeBase>(DbgNode);
return N && isTypeRef(N->getBaseType()) && isTypeRef(N->getVTableHolder()) &&
!(isLValueReference() && isRValueReference());
}
bool DISubprogram::Verify() const {
auto *N = dyn_cast_or_null<MDSubprogram>(DbgNode);
if (!N)
return false;
if (!isScopeRef(N->getScope()))
return false;
if (auto *Op = N->getType())
if (!isa<MDNode>(Op))
return false;
if (!isTypeRef(getContainingType()))
return false;
if (isLValueReference() && isRValueReference())
return false;
// If a DISubprogram has an llvm::Function*, then scope chains from all
// instructions within the function should lead to this DISubprogram.
if (auto *F = getFunction()) {
for (auto &BB : *F) {
for (auto &I : BB) {
DebugLoc DL = I.getDebugLoc();
if (DL.isUnknown())
continue;
MDNode *Scope = nullptr;
MDNode *IA = nullptr;
// walk the inlined-at scopes
while ((IA = DL.getInlinedAt()))
DL = DebugLoc::getFromDILocation(IA);
DL.getScopeAndInlinedAt(Scope, IA);
if (!Scope)
return false;
assert(!IA);
while (!DIDescriptor(Scope).isSubprogram()) {
DILexicalBlockFile D(Scope);
Scope = D.isLexicalBlockFile()
? D.getScope()
: DebugLoc::getFromDILexicalBlock(Scope).getScope();
if (!Scope)
return false;
}
if (!DISubprogram(Scope).describes(F))
return false;
}
}
}
return true;
}
bool DIGlobalVariable::Verify() const {
auto *N = dyn_cast_or_null<MDGlobalVariable>(DbgNode);
if (!N)
return false;
if (N->getDisplayName().empty())
return false;
if (auto *Op = N->getScope())
if (!isa<MDNode>(Op))
return false;
if (auto *Op = N->getStaticDataMemberDeclaration())
if (!isa<MDNode>(Op))
return false;
return isTypeRef(N->getType());
}
bool DIVariable::Verify() const {
auto *N = dyn_cast_or_null<MDLocalVariable>(DbgNode);
if (!N)
return false;
if (auto *Op = N->getScope())
if (!isa<MDNode>(Op))
return false;
return isTypeRef(N->getType());
}
bool DILocation::Verify() const {
return dyn_cast_or_null<MDLocation>(DbgNode);
}
bool DINameSpace::Verify() const {
return dyn_cast_or_null<MDNamespace>(DbgNode);
}
bool DIFile::Verify() const { return dyn_cast_or_null<MDFile>(DbgNode); }
bool DIEnumerator::Verify() const {
return dyn_cast_or_null<MDEnumerator>(DbgNode);
}
bool DISubrange::Verify() const {
return dyn_cast_or_null<MDSubrange>(DbgNode);
}
bool DILexicalBlock::Verify() const {
return dyn_cast_or_null<MDLexicalBlock>(DbgNode);
}
bool DILexicalBlockFile::Verify() const {
return dyn_cast_or_null<MDLexicalBlockFile>(DbgNode);
}
bool DITemplateTypeParameter::Verify() const {
return dyn_cast_or_null<MDTemplateTypeParameter>(DbgNode);
}
bool DITemplateValueParameter::Verify() const {
return dyn_cast_or_null<MDTemplateValueParameter>(DbgNode);
}
bool DIImportedEntity::Verify() const {
return dyn_cast_or_null<MDImportedEntity>(DbgNode);
}
void DICompositeType::setArraysHelper(MDNode *Elements, MDNode *TParams) {
TypedTrackingMDRef<MDCompositeTypeBase> N(get());
if (Elements)
N->replaceElements(cast<MDTuple>(Elements));
if (TParams)
N->replaceTemplateParams(cast<MDTuple>(TParams));
DbgNode = N;
}
DIScopeRef DIScope::getRef() const {
if (!isCompositeType())
return DIScopeRef(*this);
DICompositeType DTy(DbgNode);
if (!DTy.getIdentifier())
return DIScopeRef(*this);
return DIScopeRef(DTy.getIdentifier());
}
void DICompositeType::setContainingType(DICompositeType ContainingType) {
TypedTrackingMDRef<MDCompositeTypeBase> N(get());
N->replaceVTableHolder(ContainingType.getRef());
DbgNode = N;
}
bool DIVariable::isInlinedFnArgument(const Function *CurFn) {
assert(CurFn && "Invalid function");
if (!getContext().isSubprogram())
return false;
// This variable is not inlined function argument if its scope
// does not describe current function.
return !DISubprogram(getContext()).describes(CurFn);
}
Function *DISubprogram::getFunction() const {
if (auto *N = get())
if (auto *C = dyn_cast_or_null<ConstantAsMetadata>(N->getFunction()))
return dyn_cast<Function>(C->getValue());
return nullptr;
}
bool DISubprogram::describes(const Function *F) {
assert(F && "Invalid function");
if (F == getFunction())
return true;
StringRef Name = getLinkageName();
if (Name.empty())
Name = getName();
if (F->getName() == Name)
return true;
return false;
}
GlobalVariable *DIGlobalVariable::getGlobal() const {
return dyn_cast_or_null<GlobalVariable>(getConstant());
}
DIScopeRef DIScope::getContext() const {
if (isType())
return DIType(DbgNode).getContext();
if (isSubprogram())
return DIScopeRef(DISubprogram(DbgNode).getContext());
if (isLexicalBlock())
return DIScopeRef(DILexicalBlock(DbgNode).getContext());
if (isLexicalBlockFile())
return DIScopeRef(DILexicalBlockFile(DbgNode).getContext());
if (isNameSpace())
return DIScopeRef(DINameSpace(DbgNode).getContext());
assert((isFile() || isCompileUnit()) && "Unhandled type of scope.");
return DIScopeRef(nullptr);
}
StringRef DIScope::getName() const {
if (isType())
return DIType(DbgNode).getName();
if (isSubprogram())
return DISubprogram(DbgNode).getName();
if (isNameSpace())
return DINameSpace(DbgNode).getName();
assert((isLexicalBlock() || isLexicalBlockFile() || isFile() ||
isCompileUnit()) &&
"Unhandled type of scope.");
return StringRef();
}
StringRef DIScope::getFilename() const {
if (auto *N = get())
return ::getStringField(dyn_cast_or_null<MDNode>(N->getFile()), 0);
return "";
}
StringRef DIScope::getDirectory() const {
if (auto *N = get())
return ::getStringField(dyn_cast_or_null<MDNode>(N->getFile()), 1);
return "";
}
void DICompileUnit::replaceSubprograms(DIArray Subprograms) {
assert(Verify() && "Expected compile unit");
get()->replaceSubprograms(cast_or_null<MDTuple>(Subprograms.get()));
}
void DICompileUnit::replaceGlobalVariables(DIArray GlobalVariables) {
assert(Verify() && "Expected compile unit");
get()->replaceGlobalVariables(cast_or_null<MDTuple>(GlobalVariables.get()));
}
DILocation DILocation::copyWithNewScope(LLVMContext &Ctx,
DILexicalBlockFile NewScope) {
assert(Verify());
assert(NewScope && "Expected valid scope");
const auto *Old = cast<MDLocation>(DbgNode);
return DILocation(MDLocation::get(Ctx, Old->getLine(), Old->getColumn(),
NewScope, Old->getInlinedAt()));
}
unsigned DILocation::computeNewDiscriminator(LLVMContext &Ctx) {
std::pair<const char *, unsigned> Key(getFilename().data(), getLineNumber());
return ++Ctx.pImpl->DiscriminatorTable[Key];
}
DIVariable llvm::createInlinedVariable(MDNode *DV, MDNode *InlinedScope,
LLVMContext &VMContext) {
assert(DIVariable(DV).Verify() && "Expected a DIVariable");
return cast<MDLocalVariable>(DV)
->withInline(cast_or_null<MDLocation>(InlinedScope));
}
DIVariable llvm::cleanseInlinedVariable(MDNode *DV, LLVMContext &VMContext) {
assert(DIVariable(DV).Verify() && "Expected a DIVariable");
return cast<MDLocalVariable>(DV)->withoutInline();
}
DISubprogram llvm::getDISubprogram(const MDNode *Scope) {
DIDescriptor D(Scope);
if (D.isSubprogram())
return DISubprogram(Scope);
if (D.isLexicalBlockFile())
return getDISubprogram(DILexicalBlockFile(Scope).getContext());
if (D.isLexicalBlock())
return getDISubprogram(DILexicalBlock(Scope).getContext());
return DISubprogram();
}
DISubprogram llvm::getDISubprogram(const Function *F) {
// We look for the first instr that has a debug annotation leading back to F.
for (auto &BB : *F) {
auto Inst = std::find_if(BB.begin(), BB.end(), [](const Instruction &Inst) {
return !Inst.getDebugLoc().isUnknown();
});
if (Inst == BB.end())
continue;
DebugLoc DLoc = Inst->getDebugLoc();
const MDNode *Scope = DLoc.getScopeNode();
DISubprogram Subprogram = getDISubprogram(Scope);
return Subprogram.describes(F) ? Subprogram : DISubprogram();
}
return DISubprogram();
}
DICompositeType llvm::getDICompositeType(DIType T) {
if (T.isCompositeType())
return DICompositeType(T);
if (T.isDerivedType()) {
// This function is currently used by dragonegg and dragonegg does
// not generate identifier for types, so using an empty map to resolve
// DerivedFrom should be fine.
DITypeIdentifierMap EmptyMap;
return getDICompositeType(
DIDerivedType(T).getTypeDerivedFrom().resolve(EmptyMap));
}
return DICompositeType();
}
DITypeIdentifierMap
llvm::generateDITypeIdentifierMap(const NamedMDNode *CU_Nodes) {
DITypeIdentifierMap Map;
for (unsigned CUi = 0, CUe = CU_Nodes->getNumOperands(); CUi != CUe; ++CUi) {
DICompileUnit CU(CU_Nodes->getOperand(CUi));
DIArray Retain = CU.getRetainedTypes();
for (unsigned Ti = 0, Te = Retain.getNumElements(); Ti != Te; ++Ti) {
if (!Retain.getElement(Ti).isCompositeType())
continue;
DICompositeType Ty(Retain.getElement(Ti));
if (MDString *TypeId = Ty.getIdentifier()) {
// Definition has priority over declaration.
// Try to insert (TypeId, Ty) to Map.
std::pair<DITypeIdentifierMap::iterator, bool> P =
Map.insert(std::make_pair(TypeId, Ty));
// If TypeId already exists in Map and this is a definition, replace
// whatever we had (declaration or definition) with the definition.
if (!P.second && !Ty.isForwardDecl())
P.first->second = Ty;
}
}
}
return Map;
}
//===----------------------------------------------------------------------===//
// DebugInfoFinder implementations.
//===----------------------------------------------------------------------===//
void DebugInfoFinder::reset() {
CUs.clear();
SPs.clear();
GVs.clear();
TYs.clear();
Scopes.clear();
NodesSeen.clear();
TypeIdentifierMap.clear();
TypeMapInitialized = false;
}
void DebugInfoFinder::InitializeTypeMap(const Module &M) {
if (!TypeMapInitialized)
if (NamedMDNode *CU_Nodes = M.getNamedMetadata("llvm.dbg.cu")) {
TypeIdentifierMap = generateDITypeIdentifierMap(CU_Nodes);
TypeMapInitialized = true;
}
}
void DebugInfoFinder::processModule(const Module &M) {
InitializeTypeMap(M);
if (NamedMDNode *CU_Nodes = M.getNamedMetadata("llvm.dbg.cu")) {
for (unsigned i = 0, e = CU_Nodes->getNumOperands(); i != e; ++i) {
DICompileUnit CU(CU_Nodes->getOperand(i));
addCompileUnit(CU);
DIArray GVs = CU.getGlobalVariables();
for (unsigned i = 0, e = GVs.getNumElements(); i != e; ++i) {
DIGlobalVariable DIG(GVs.getElement(i));
if (addGlobalVariable(DIG)) {
processScope(DIG.getContext());
processType(DIG.getType().resolve(TypeIdentifierMap));
}
}
DIArray SPs = CU.getSubprograms();
for (unsigned i = 0, e = SPs.getNumElements(); i != e; ++i)
processSubprogram(DISubprogram(SPs.getElement(i)));
DIArray EnumTypes = CU.getEnumTypes();
for (unsigned i = 0, e = EnumTypes.getNumElements(); i != e; ++i)
processType(DIType(EnumTypes.getElement(i)));
DIArray RetainedTypes = CU.getRetainedTypes();
for (unsigned i = 0, e = RetainedTypes.getNumElements(); i != e; ++i)
processType(DIType(RetainedTypes.getElement(i)));
DIArray Imports = CU.getImportedEntities();
for (unsigned i = 0, e = Imports.getNumElements(); i != e; ++i) {
DIImportedEntity Import = DIImportedEntity(Imports.getElement(i));
if (!Import)
continue;
DIDescriptor Entity = Import.getEntity().resolve(TypeIdentifierMap);
if (Entity.isType())
processType(DIType(Entity));
else if (Entity.isSubprogram())
processSubprogram(DISubprogram(Entity));
else if (Entity.isNameSpace())
processScope(DINameSpace(Entity).getContext());
}
}
}
}
void DebugInfoFinder::processLocation(const Module &M, DILocation Loc) {
if (!Loc)
return;
InitializeTypeMap(M);
processScope(Loc.getScope());
processLocation(M, Loc.getOrigLocation());
}
void DebugInfoFinder::processType(DIType DT) {
if (!addType(DT))
return;
processScope(DT.getContext().resolve(TypeIdentifierMap));
if (DT.isCompositeType()) {
DICompositeType DCT(DT);
processType(DCT.getTypeDerivedFrom().resolve(TypeIdentifierMap));
if (DT.isSubroutineType()) {
DITypeArray DTA = DISubroutineType(DT).getTypeArray();
for (unsigned i = 0, e = DTA.getNumElements(); i != e; ++i)
processType(DTA.getElement(i).resolve(TypeIdentifierMap));
return;
}
DIArray DA = DCT.getElements();
for (unsigned i = 0, e = DA.getNumElements(); i != e; ++i) {
DIDescriptor D = DA.getElement(i);
if (D.isType())
processType(DIType(D));
else if (D.isSubprogram())
processSubprogram(DISubprogram(D));
}
} else if (DT.isDerivedType()) {
DIDerivedType DDT(DT);
processType(DDT.getTypeDerivedFrom().resolve(TypeIdentifierMap));
}
}
void DebugInfoFinder::processScope(DIScope Scope) {
if (Scope.isType()) {
DIType Ty(Scope);
processType(Ty);
return;
}
if (Scope.isCompileUnit()) {
addCompileUnit(DICompileUnit(Scope));
return;
}
if (Scope.isSubprogram()) {
processSubprogram(DISubprogram(Scope));
return;
}
if (!addScope(Scope))
return;
if (Scope.isLexicalBlock()) {
DILexicalBlock LB(Scope);
processScope(LB.getContext());
} else if (Scope.isLexicalBlockFile()) {
DILexicalBlockFile LBF = DILexicalBlockFile(Scope);
processScope(LBF.getScope());
} else if (Scope.isNameSpace()) {
DINameSpace NS(Scope);
processScope(NS.getContext());
}
}
void DebugInfoFinder::processSubprogram(DISubprogram SP) {
if (!addSubprogram(SP))
return;
processScope(SP.getContext().resolve(TypeIdentifierMap));
processType(SP.getType());
DIArray TParams = SP.getTemplateParams();
for (unsigned I = 0, E = TParams.getNumElements(); I != E; ++I) {
DIDescriptor Element = TParams.getElement(I);
if (Element.isTemplateTypeParameter()) {
DITemplateTypeParameter TType(Element);
processType(TType.getType().resolve(TypeIdentifierMap));
} else if (Element.isTemplateValueParameter()) {
DITemplateValueParameter TVal(Element);
processType(TVal.getType().resolve(TypeIdentifierMap));
}
}
}
void DebugInfoFinder::processDeclare(const Module &M,
const DbgDeclareInst *DDI) {
MDNode *N = dyn_cast<MDNode>(DDI->getVariable());
if (!N)
return;
InitializeTypeMap(M);
DIDescriptor DV(N);
if (!DV.isVariable())
return;
if (!NodesSeen.insert(DV).second)
return;
processScope(DIVariable(N).getContext());
processType(DIVariable(N).getType().resolve(TypeIdentifierMap));
}
void DebugInfoFinder::processValue(const Module &M, const DbgValueInst *DVI) {
MDNode *N = dyn_cast<MDNode>(DVI->getVariable());
if (!N)
return;
InitializeTypeMap(M);
DIDescriptor DV(N);
if (!DV.isVariable())
return;
if (!NodesSeen.insert(DV).second)
return;
processScope(DIVariable(N).getContext());
processType(DIVariable(N).getType().resolve(TypeIdentifierMap));
}
bool DebugInfoFinder::addType(DIType DT) {
if (!DT)
return false;
if (!NodesSeen.insert(DT).second)
return false;
TYs.push_back(DT);
return true;
}
bool DebugInfoFinder::addCompileUnit(DICompileUnit CU) {
if (!CU)
return false;
if (!NodesSeen.insert(CU).second)
return false;
CUs.push_back(CU);
return true;
}
bool DebugInfoFinder::addGlobalVariable(DIGlobalVariable DIG) {
if (!DIG)
return false;
if (!NodesSeen.insert(DIG).second)
return false;
GVs.push_back(DIG);
return true;
}
bool DebugInfoFinder::addSubprogram(DISubprogram SP) {
if (!SP)
return false;
if (!NodesSeen.insert(SP).second)
return false;
SPs.push_back(SP);
return true;
}
bool DebugInfoFinder::addScope(DIScope Scope) {
if (!Scope)
return false;
// FIXME: Ocaml binding generates a scope with no content, we treat it
// as null for now.
if (Scope->getNumOperands() == 0)
return false;
if (!NodesSeen.insert(Scope).second)
return false;
Scopes.push_back(Scope);
return true;
}
//===----------------------------------------------------------------------===//
// DIDescriptor: dump routines for all descriptors.
//===----------------------------------------------------------------------===//
void DIDescriptor::dump() const {
print(dbgs());
dbgs() << '\n';
}
void DIDescriptor::print(raw_ostream &OS) const {
if (!get())
return;
get()->print(OS);
}
static void printDebugLoc(DebugLoc DL, raw_ostream &CommentOS,
const LLVMContext &Ctx) {
if (!DL.isUnknown()) { // Print source line info.
DIScope Scope(DL.getScope(Ctx));
assert(Scope.isScope() && "Scope of a DebugLoc should be a DIScope.");
// Omit the directory, because it's likely to be long and uninteresting.
CommentOS << Scope.getFilename();
CommentOS << ':' << DL.getLine();
if (DL.getCol() != 0)
CommentOS << ':' << DL.getCol();
DebugLoc InlinedAtDL = DebugLoc::getFromDILocation(DL.getInlinedAt(Ctx));
if (!InlinedAtDL.isUnknown()) {
CommentOS << " @[ ";
printDebugLoc(InlinedAtDL, CommentOS, Ctx);
CommentOS << " ]";
}
}
}
void DIVariable::printExtendedName(raw_ostream &OS) const {
const LLVMContext &Ctx = DbgNode->getContext();
StringRef Res = getName();
if (!Res.empty())
OS << Res << "," << getLineNumber();
if (MDNode *InlinedAt = getInlinedAt()) {
DebugLoc InlinedAtDL = DebugLoc::getFromDILocation(InlinedAt);
if (!InlinedAtDL.isUnknown()) {
OS << " @[";
printDebugLoc(InlinedAtDL, OS, Ctx);
OS << "]";
}
}
}
template <> DIRef<DIDescriptor>::DIRef(const Metadata *V) : Val(V) {
assert(isDescriptorRef(V) &&
"DIDescriptorRef should be a MDString or MDNode");
}
template <> DIRef<DIScope>::DIRef(const Metadata *V) : Val(V) {
assert(isScopeRef(V) && "DIScopeRef should be a MDString or MDNode");
}
template <> DIRef<DIType>::DIRef(const Metadata *V) : Val(V) {
assert(isTypeRef(V) && "DITypeRef should be a MDString or MDNode");
}
template <>
DIDescriptorRef DIDescriptor::getFieldAs<DIDescriptorRef>(unsigned Elt) const {
return DIDescriptorRef(cast_or_null<Metadata>(getField(DbgNode, Elt)));
}
template <>
DIScopeRef DIDescriptor::getFieldAs<DIScopeRef>(unsigned Elt) const {
return DIScopeRef(cast_or_null<Metadata>(getField(DbgNode, Elt)));
}
template <> DITypeRef DIDescriptor::getFieldAs<DITypeRef>(unsigned Elt) const {
return DITypeRef(cast_or_null<Metadata>(getField(DbgNode, Elt)));
}
bool llvm::StripDebugInfo(Module &M) {
bool Changed = false;
// Remove all of the calls to the debugger intrinsics, and remove them from
// the module.
if (Function *Declare = M.getFunction("llvm.dbg.declare")) {
while (!Declare->use_empty()) {
CallInst *CI = cast<CallInst>(Declare->user_back());
CI->eraseFromParent();
}
Declare->eraseFromParent();
Changed = true;
}
if (Function *DbgVal = M.getFunction("llvm.dbg.value")) {
while (!DbgVal->use_empty()) {
CallInst *CI = cast<CallInst>(DbgVal->user_back());
CI->eraseFromParent();
}
DbgVal->eraseFromParent();
Changed = true;
}
for (Module::named_metadata_iterator NMI = M.named_metadata_begin(),
NME = M.named_metadata_end(); NMI != NME;) {
NamedMDNode *NMD = NMI;
++NMI;
if (NMD->getName().startswith("llvm.dbg.")) {
NMD->eraseFromParent();
Changed = true;
}
}
for (Module::iterator MI = M.begin(), ME = M.end(); MI != ME; ++MI)
for (Function::iterator FI = MI->begin(), FE = MI->end(); FI != FE;
++FI)
for (BasicBlock::iterator BI = FI->begin(), BE = FI->end(); BI != BE;
++BI) {
if (!BI->getDebugLoc().isUnknown()) {
Changed = true;
BI->setDebugLoc(DebugLoc());
}
}
return Changed;
}
unsigned llvm::getDebugMetadataVersionFromModule(const Module &M) {
if (auto *Val = mdconst::dyn_extract_or_null<ConstantInt>(
M.getModuleFlag("Debug Info Version")))
return Val->getZExtValue();
return 0;
}
llvm::DenseMap<const llvm::Function *, llvm::DISubprogram>
llvm::makeSubprogramMap(const Module &M) {
DenseMap<const Function *, DISubprogram> R;
NamedMDNode *CU_Nodes = M.getNamedMetadata("llvm.dbg.cu");
if (!CU_Nodes)
return R;
for (MDNode *N : CU_Nodes->operands()) {
DICompileUnit CUNode(N);
DIArray SPs = CUNode.getSubprograms();
for (unsigned i = 0, e = SPs.getNumElements(); i != e; ++i) {
DISubprogram SP(SPs.getElement(i));
if (Function *F = SP.getFunction())
R.insert(std::make_pair(F, SP));
}
}
return R;
}
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